Cassidy Research Group
Cassidy Research Group
Welcome.
Welcome.
We use MD
We use MD
We use a wide range of computational techniques, including integrative and multi-scale molecular simulations, to study the structure and function of diverse biomolecular systems. We’re especially interested in understanding signal transduction mechanisms within the chemosensory arrays mediating bacterial chemotaxis. These remarkable complexes display exquisite sensing capabilities that begin with subtle allosteric changes in individual proteins and emerge from the cooperative interaction of dozens of components, presenting tantalizing challenges to the modeler. We work closely with structural biologists, geneticists, and biochemists to connect our in silico observations to cellular behavior, providing unique, high-resolution insight into critical cellular processes.
We use a wide range of computational techniques, including integrative and multi-scale molecular simulations, to study the structure and function of diverse biomolecular systems. We’re especially interested in understanding signal transduction mechanisms within the chemosensory arrays mediating bacterial chemotaxis. These remarkable complexes display exquisite sensing capabilities that begin with subtle allosteric changes in individual proteins and emerge from the cooperative interaction of dozens of components, presenting tantalizing challenges to the modeler. We work closely with structural biologists, geneticists, and biochemists to connect our in silico observations to cellular behavior, providing unique, high-resolution insight into critical cellular processes.